Organic
smart driver.
A green driver of compound assets that never misses its target, ENgreen’s EVs are the basis for a new generation of environmentally-friendly and more effective plant and animal protection products.
Why
are we studying
extracellular vesicles (EVs) ?
Extracellular vesicles are small particles secreted by all organisms and involved in cell-cell and cell-organism communication, as well as in the regulation of immune responses in animals and plants.
- 1
EVs are small particles secreted by all organisms and involved in cell-cell and cell-organism communication within living organisms and can therefore overcome the weaknesses of technologies that have already been tried and tested, but that are not effective enough.
- 2
ENgreen’s EVs will make it possible to effectively deliver compound assets to plants and animals and prevent them from specific diseases.
- 3
The properties of EVs make it possible to obtain alternative products to traditional synthetic molecules. ENgreen’s solutions, based on these natural particles, will enable more targeted solutions, while providing more effective protection for bioactives molecules. ENgreen will therefore offer more environmentally-friendly solutions for both plant and animal health.
Why do we believe in EVs?
“An innovation inspired by nature and respecting nature. It’s a vision made possible by taking into account the rapid evolution of information technology.“
Delase Amefese – Bioinformatics Engineer at ENgreen
“We are looking for more effective treatments, a reduction in the quantity of active ingredients used in therapies and the absence of synthetic residues in the treated organism.“
Laurent De Crasto – Co-founder of ENgreen
The 4 advantages
of EVs
These particles naturally protect their contents from degradation, providing a new, effective means of delivering molecules to the targeted cells or organs.
Efficacy
Inside the EVs, the active compounds remain protected from degradation mediated by nucleases, which are abundant in plant and body fluids, as well as in the environment.
Safety
Because humans and other living organisms are exposed to EVs on a daily basis, these particles can be delivered without risk.
Precision
EVs are delivered to the right place using a natural process.
Versatility
Because of their natural ability to be loaded with multiple compounds assets (RNAs, small molecules, peptides, nanobodies, proteins, etc.), EVs have a wide field of action and almost unlimited targeting options.
How do
EVs
work?
Extracellular vesicles (EVs) are small natural particles that play an essential role in cellular communication within all living organisms.
A step ahead
With 2 patents pending, our R&D team is continuing its research and building up its intellectual property.
by 2022
Our partners
ENgreen’s EVs
platform:
Unique versatility
This versatility means we can develop targeted, effective and more environmentally-friendly therapeutic solutions. This platform makes it possible to target any pathogen rapidly and on demand, enabling us to find rapid, effective solutions to emerging diseases, which will continue to grow in the context of climate change.
